PI0016603 (gene) Melon (PI 482460) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTAGAGTCGGGAGGGAATTCGACAAGAGGATATATGACCAACAGGTTTCCGTCTCAACAAAACTCGAGAGAAACTGAGAAAGATCCTCAATTCTCTCTCATTGTTGCCGTCGAGGAAGAAAAAGCTACTGCATGTTCCAATTCCGCCGAGATGAGTAGTCCTTCAGAATCATCTAGAGCGAAGAAACGCCGACGAGAGGCCGAAATTGAAGACGATGGCGGGAACAATACTGAAAATTTATCGTTGGGTACTACTTTCTGGCCATTTTCTATCATTTTGTTCGCCTAATTGCTGATTGATTGATACAGTATGTTATGTTTACTTCAATGCAGAGGACTGTCTTACATTTAACGATACTTTGGCGGCGCTTCATATGATGCGAGCTCAGTTTCCCACCATTGACAAGGTTCAAGTTCTTTAATTTCATTTGATTTGTGTCTTTATATTGGTTTCTCAAGACGAGTATGTTATTGTTTCTTTCATGGAGACTTTAAGTAGTGAGAGCTAGATATATGTGTAATGGGGCTATTCAACTTGTTTAATCGAGTAGTTCAAAATTATAGCTAGTGGGTTTTTGTTTGCCAGTGAATGCGAAGTGTTGGATATAAGAGTCTCGGGGTTCTTCCACCTCCACGTCCGTGAGAGGTTTCCAGTTGAGGAGGAATTTGATGTAGGAAGTTCCTTTTTTGGTTTTATTATGGACCCACTTGATGGAGAGAACCATATTTGTCTATGGATTGTGGTGCTTGTTAGGATTATGGAGTTCAATTCTCAAACTAACCGAGTTCAATTCCAAGCTGATGTCGGGTCTAGACTCAAATGAAAGACTCTTTGAAGACATATGGGCACTGTGGCACAAAGGTCTTTTGCACTGCATTGAAGAAGAGACAGATTCTATGATATATGGCCCAGGCATGAGTGCATGATTTCCAACCTATAAACAAAGTTTTACTCTAGGTACAACTTGAGAGTAAATGGGGGATTTAAGAAAAGGCGAGTTGTTAGCGATCTGTGAAGGTTTTGGGGCACTAGTCATTACTCATTAGTTGACAGAAAGTCGAAAGAATTTGGGTCATATTTTCAAAGGTGAGAAATACTATTGCAGGAATGCGTGCAATTTCTATTGTATATGAAGGTGAGATATATTCCATTCACGACCTTCTATGGGATTGTCTTTTTGCGCAGTTGCGTTGATTTGGAGCAGATGGTTGAGGACTTTTGGTTTACGTTTGGCTTGGAGGAGAGATTGTTTCTCCATGATTGAGGAGGTTCTCGTCTTTGGTTTTCCATGAGAAAGACCATGTGATGTGGCAAGTGAGTTTTTTTTTGCTATTGTTTGGAGTATTAGGCTAGAGAGGAAGAATAGGATCCTTAGAGAGGTTGAGACATCCGGTGAGAAGGTTTAGGAGGGGCCGGTTTAATGCCTTCTTGTGGGTGTTTATTTTAGTTTCTTTTGTAATTATGATCTTGGTTTGATTTTGTTGGATTGGAGCTAGGAGCTATTTTCTTAGTTTGCGGCTCTCTCTGCTTTTCTATGAGGTGTTTTTTTGTATGCCCCTTTGCTTTCATTATTTCTGCACGAGAGTTTGATCTGTAAAAAGAAAAAGAAATTTGGTGTTCTTAGTTGAACCTACAGAGTCTGAAGGAGATAGAATTTAATTAGTTAAGGGTAACTTTTTGTGGTTTTTATTCTCGTTTTATGTTTCTTCTCTTGCTTATGTCATTGTTATTACTGCTTATGTAGAAGGAAAATTAAGGATTATGTGAATATTTCAAATTTCTTACAATGAGTATGAAAGCAAGGTTCTTGATCTTGATGTCAATTGACACTATAGGTTGCTGTTTTGAAGATTAAATCAATTAAATGTTTTTCTAGTTAATAGCTAAACCTAATATTGGGGAAGACAGATGGCTGATGGATGAAGATTTGAAGGGTTTAGAGAAGGTACTTCTTTTTCTCCATTGAAGTACTTACAAAAATGGTACAAAGTATATAGAGTGCTAGTTCGGATTAACATTGAATTTTGAGGGAACAAAAGTTTCAACCACAGCTTTGAAAACTGTAGCAATAATAGATGGCTTAGCAAGAAAGATGCCAAATGCTTCCCTTGCTGTAAGACGGATGAAGGTGCTTTGGTGGGCTTGTTGTCTTTTATGCCTTTGTATTCTTTCATTCTTTCCCAATGAAAGCAGTTGTTTCAATAAAAAAAGAAGGATGAAGGTGATGATAGTAAATTGAAGAAGCAAAAGAACAATTCAAAGGAAACCTTTGTGGAAACTTGTCTTATAAGCGTTCACATTGAGTCATTGACATATGGCTTACATACTATATATTATATTGGGCAACTGACAGTGCAACATCTATCTTGTGATCTCAAATCAAGATACGTTATGACCTTGCAGTATAGGTTTTAACGAAAATGTGAAATTGAGGAGTGAGAACGCATCTTATGGAATACATATTGGAGATTAGTTTGAAGATAAATAAATGTTGCAGATTGTTGTTGCATAGGATCAATTATCAAATATATTCCAGGTATTTGTCTCTTGTTAAAAAAAAAGAAAAAGAAAATAAAAATTCCAGGTATTAAGTTGAATCTCTTTTCTATAAATAATCTTGATGTAGGTTCTTTTTTGGATAAAGAAACATTCCATTGTTAACTTGACGATGGAGGTTACTTGAGTGATAAAAGGCTACTAGAAGCTTACTAGAGGCTTCATGTTGGTTGGTGGTTCAACAATAGTTCTACACTAGAAATGAAAGTTTGTAAGGCACGTCGTATATCTTTTACACAAAGTGCAATGCAATAGGGTTGTTTATGACTTTATGTCAATTTTCTGATGGAAACGACAACTTTCATGGAGAAAAAAATGAAAGATTACAAGGGAATAAAAAGAAACAAGCTCCAAAAAAGAACCTCACTAAAGAAAGTGTGTTACTTTAGCTGACAATGTAAATGGGACAGCTATATTCTAAGCCACTGGTTTAAGTTCAATTGGGAAGACATCAAAGCAGTCAGAACATACCCTCAAGTATTAGGTATCTGTAAGACCTCCTATCATTCATAAATATAAAAGGAGGGGCAAGAGGGTAATTATGCAGGAGACAGATTCTGGAGAGAGAATTGTGAAAGAGAATAAAGTTGGAGGGGCCACTAATGATGAGAGATATAAATAGAAGGGTCTAGGGATTGGTGAGGTAGGGTTTTTTGTAGTAAAAGGCTGCTGAGTCTTTTAGGGAGAAGTTTCCAGCCTTCTCTAAGGTGCTGGTTAGTTTCCTGGGTATTTTCTTCTTGCTATTTTCTTTGTGTTGTTTGTATGAACCTTTGAAGTTATTCAATAACAGAAAGTATCGGAGTGCTGCCTCTGTTTCTGCCTTTTGTTGGGATTTATTGGTGATTTAAGGGTGAAATCCTAACAGTATCCCACAATTGGGAATATATGAAAGTAATAGGCCGAAGTAGTTGGAGTTCTTAGAGTTTCAGTTTCAGTGGTGTTTGGAGTTTTCGTCTAAAGAGTCAATTTGTTCCATTATGGGTTGTGTTTAATTGAATTTTTTTTTTTTCTAGGTAAGTCCAGCATTGGGCTATATTTTGTTGTATTTGCTTTATCTTGCTTTTTATGTCTCATTGTATTTCAAGCATTGGCCTCTTTTCATTTCATCAATGAAAAGTTTTGTTCCTATTAAAAAAAAGTAAACCGATGTAGTTGCTTAATTACAAGTCTGCACTTAGGGTAGGTATCTCATGGTCCAGGCGTAAGACTGTGTACAGTTCTAGAGATATAATAGAGTGGAAGATAATTATGAAATAATTATAAATTGGTATTGTACTTCAAATAGGCAACAATATTGCTTGTATCTATGATGTTGATGGAGTAATGGCAAGTGAACTAGTAGAATTTGAAGAGGGTACTACAGACATTGCTCTGCTGTTAGAAATTTAGAATGAAATAATAAGGTGTTACAAAGCAATGGCAACATTCTTGAAGACATGGATCAAACATAAAACAGAAAAATCTTTTTCTAGTGCTTGTTATTGATGGACTGACAGAATGGTGATACATTTTGGTCTCTAGTTGGGGTGAGTGCTTATGGGTTTCATCGATTGAATAAAACCCATAACAAGGTTCATGTTGTGGGAGTTGTTGATGTAGAGGGAGATGGGAGTTGAAGATTGCTGTTTGGTTTCCAAAGGAGAGATCATTAATATTTTGGTGCTTGGTTATCAATTGAACTTGGTCCAAGCTCTATTTGAAGTTTAACCGAAGATCAAGTGAATGGATCTTTGAGTTGCCATGTTTTGGTGTTAGCTGGTAAAAATTCCTCGTATGGTTAGAAGACCTCCTTACGAAGCCATGTGCATGTTACTAGCATGACAACAACCTATAATCAGTGTTTTCTCTATCAGTTTGGGAACAACTTGTAGGAAATGAAGGACATAGTGGAAGGGAAGATTGTTTGCAATTTGTAAGAGCCTTGGACTTGAGTAGGGAGAAAATTTAGAGAAAAATCCTATGAGAAAATTCTACAAAGAAAAATATATTCTTGTAATAGTGTCATGCTCTCTATTATTCTGCTCTTTTAATCTTCATTGGTGGAACTTGTAGGATTGTAGAAGGCTGAGGCAGAATCAACATAACTTAATTAGTGATGAACATGAGAAAGAAAAGCTCATGTCAATGTGCAGCAGATACTCTTAGTCACTAGTTATTTATTAGTCTGTTCTTATGAAATTGGTCTGTGCCCTGTTTTCTGCCTTGCTCTGCATTCTATGAAGCATTTGCATCTTAGTTTGGAAGACACCAATCCAATCCAAGCCCATTGAACATAAATAGCTTATTACACGTGGTGTTTATTTACTTTTCCTTGTTTTCAGGTGTCAATTCAGCCATTCATTTTGCAATCACAGTTGTATAGTAGTTTGAAAGACCGAACAGAAGTAGACAGGGAACTAGAGGTCTGTACTTCTTTCCTATCTTTTACTCTGTAATTTCTAGGTTTTTTTTTTAAACGGATACAAGCCTCTTTATTAAATAAATTAATAAAAGATTAATGCTCAAAGTATATGAGAATTATACTAAGAGCGAAAAGAGTGATCACAAACACAAGTACAGACAAATTGAACAAACAAAAACAACACAAGCGAAACCCTGAGCAAAACAGAAGAAAAATAAGAACAAAGCAAACTTAAAAAAAACTTTCCACAAGAAGCCCAAGAACAGCTGAAGATTGCAGACTAAAAATTTCAAAATGGATGGGAGGAGAACACCAAGGGAGAGCAAATTGCCAAGCAGCTTGTTGATGAAAAAATATGCCTCCTAAGTAGTCCTTAAATCTTTGAGTGAGGGACTAGAACCAGAATGTTTGGGAAGAACTTTAGAGGGCCAAAATAATAGAAGCATCCGTCAAACCTCTCCTGGTCCACTAACACAGCTCAAACCAAAATAATTCCACATTTCTCAACAATGGACTTCAAGTGATCTGGAATTTCACAGTGTGGAGCTTGTGAAGAAAATAAAGAGGTTTGTTTCTCAGTAATTAGATCCTCCTCTGTCTGAAACAAGGTATTGACATCAGATTCTAAAAGATCCTTAATCGACTGGTCATCCTTCTCCGCTGTCTTTGGCATATGTTCGGCTTTCTCGCTGCTCACACTAAAAGGAGAGTCGAAATCTGAGACAATCTTCTTTTTTGATGAAGCGAATGGAATTTGGGTCGGAGAATCTCTAAAAAATTTTACATTTGAATTAGGCAAAGAGAAAACTGAGTATTTAAAATGCGGATGAACCGATCTCTGAGGAACTGACTTGTTTGATTGAGAAGGGGCTTGCAAAAGGGCACAATTTGCCTCCCAATCAGGGTTCTGATCCAAAATCATTTCCTAGGTTTTTGTTTCTAGGTTTATAAGTCTTCTCCATGCATTAACCTGTGATGATGGAAAGTGGAAGATTACTTTTTGGTGCATGTGAGGCGATGCTCGAGCAACACCTAATAAACCAAAAGTATATTCAAAAGAGAAAGAATAAGCCTAAGGGCCTTTGGGGGCGGAACCCCTCCTAAACAAGCTACAAAAGAATTTCCTTCTAACATCTAATAATCATTATAGGCCTATAATTACAACAGATGATTTGATAACATATCTTAAAAAATCATTTTATTTCTTTCACTAGCAAGAAACCAAAATAGGGCTCTAGCCAAACAACTCTGAACAATTTTTTCCTTTTTAATCTCATGTACTTTGATTGTTGGGCAATTTTTACTACCTTGGATCAGCCAATGGTCCACTGGACTAGGGCCAGGTTCTTCTCTTATGTTGTAGAAGTGCATTTTCCAGTGAAAAAGCAACCATAAATTTTAGCTACTTGGTCTATCGAGAGGTTCCTGTCTTGACATGCCACTCCTTGTGCCACAGAGCATTGATCTTCATCTACCAGCTTTACTTTGGCCGGGATAAATACACCATAATTTCTTTTCAACCATTATGGCAACTTTCACACAAATGATAAGGGTAGAATTATTTTCAGAATACCCATAAAATCTTTGAAAAGGTCCCGTGTAGTCTTAAAAACTTCCAATCTCCGCAAATCTGAAGAAATCTTTCTGAATTTAGGCCACCCTCCATAAGAAGAGACCAAATTATTTTTGCCATGTTTTTGTGCCTCCCATATTGTCATTTATAGTGAGAATGAGGTGAAAGTAGCCCATCTCTATTCATCACAAGCACATGAGCTGTCTCCTTTGAAGGGCATTTAAGAAGGGCCTTATCCAGTTGGAATGGATTTATGATGAAAGACTCCTGCATTTGAATCTGTATTGTTTGTGTTTCAACAATCCTTTACCAGTCATCATGGAAGTTGTCATTATGAGCATTTCCTTCAAATTTAATTTTCTCACCTCCTCTTGAGCCTTTTAGTTTGAGCCTCAGTGAAGAAGTACTTAAAGGTCCTCCATTCCTGAAATTGGCTTAAGAGCTTCAGCATACTCCTCTGACCCTGTTTTCTTTCTGGGAGCTTTGAGCTGAATATTTTCAATCTAAGAAGTCTAGAATGAGAGTCCTCAAAGCTGCCCATCCATTTGGCTGGGGAATTTACAACCACCATTGCAACAAGTCTTTCTAAAACATTCCTGTAACTGAGGGACTGGCTAATATCAGGTCTTCCAAGGTGTCTGCAGTGCAAACCAAACTAGCTCAATTTCTGCTGGTGTAAATGCGAAGATTCTCTTGTCTGATTATGTTTCTGTGTAGGATTCTTATAGAAAAATGTGCTGTGCAGGATTACTTTCTCAATATCATTCTCAATTGTACTTTTTTTACCTCAATTTTATAATTTTTCAAAAACATTTTGTATTTGGTTAATGGTGATCTTTATTCATAGATTTTGTTTTATGCAGTGTCTAAAACGAGAAAAAGTAGTGCGAGTATTCAAACTGAATACTGGACAAGATGATCATGCAATAATGTTTTTGGATGACTATCTGAAGCAGGTTAGTTTTATTTAATATGTAATTATATAAAGTTTCATTTTATAACCTGATGCCTGATACTTCTTCATGGGACATTTTTCTTGCTTGTAATATGTGTGTGGACATTTGACGGGTTGATTGGTCCTTGGCTTTCTCTTGGACTTGGTCCAAATGGTCACAGCCTTCTTGATTTGCTCAAAACATTGATTATCATTTAGTTAGGTGTGTCCAAAGCTTTCTGTTGGGAACATTTGTTGAAAAAGAAATTGTAGAATTTATGAGGGAGGAGTAAAGTTAAGGAATTGATGGGTTTGGCATGTCTTAAACATTTTTTTTTCAATTATCCTTTTTTTTAATAAATTTTTATAATTGCCAATTGGTGTGCCTTTTCTAAGTGCCTTCGTACGAGGATGTATGGGTACCTTCCTCTTCGGGTTTTGTACTTTTTGCAATTTCTTATCCATTGTAATTTTGAGGGATTTGTTTTAGTATGTAACGTTTAAAAAATTAGCTTGGGGATTTGTTTGTTACTCAATGATGCATTTAATTCTGTCATGATTTTCATGTTCTTTTTCTCTGTTTCTTTTTCCCTTTCTATACTTAATTACTTTTATACAGATTGACCGTGTGATATCAAGGTTTGAAGAAAGGATGAAACTTGGCAAGGAGATTTTTCAGTGGTTTAAGATTCATGTTATTGATTGCAAGTTGGAACCTAGTATTGGACATCAGGAGCTTGTGAGTAAATGTATACTTCCTATAGACTCTAAATTCTATTGGCTGTTTCAATAGTTTGTTTCAAAATGGAAATCAGATTTATGCCAATATGAAAGGATGTGATGCTAGATGTTGCATTTTACATTCATATATTCATGGTAGATGGAGATAAAAATGTGAAAGTTTTATACTTAACTAAACTGTACAGGTAGCTTCCCATAATCGTATAAGGAGTTATCAGGACTGTTTAGGTCTCTGCAGCAATATGGAGCTTGGTGGAAAATTCAACATTATTTGTTGGGTATGAAAACATAAGTAGGAAAGCAAAACTGGTAGTAAGGTGTTGGATTGCTTGATTGAGGACGGCAGAACTGGAAGTAAGAAGGCATTAGATTACTTCAACAAGGAAATGCCAAAAAACCGCGAGGATGCAAAAAATAAGCCCAATTGGTGGTAATATGCACAATGATCATAATTATAAGTGTGATTAATATGCAACGAGTGCACCAAGTAATAGCAAAAAATTGGTTTGATCCCAGAAACCAAGGTAAACCTAGAGTTTCTGGTGTTCATTGAGAAGTCAGATTCTGCAACTTGCTTCTTTGAGTTTGATTTGAAGTCTTTCTTCAACTTGTTGCAAGTCTTGTCTAACTTGGCACTACATGAAACTATGTTAACAAATTACAAAATCAAAGGAAAGATATTCTTCTTCTACGAGTCTTAAAAATATCAGTATATAATTAACTGCCCATAAGAAGATGACTAAAATTTATGTGAAAGAAAGTTTTGGTTGGTTATACTCAACTTGTTAAGTACTCGCAGGACTTCTTGGGAACGAATATCTGGTGCTCAAGATATGTGGAATATCTCATCGCCAGTGAGAAAATGCAATATAGTTTACTTTTCAAAGGATGTTCTGTTGCAATCACAACACTCTCCCTCAGCTCAGCTATGTCCCCAGACCTTTTAGCTAAACATCCTCCATGACAGCTTATGCATACAATTCTTGAAACAAGCAAGCGAATGATTTTGTGGAAATTGACTGGGAGGTAGAAGAGTGGCTTGGCCTAATGAATTCCCTTTTAAATGTTTGCCACTCAAACATAGGAGATTAGAGATTCCAGTGTTAAGGATATCCTGTGGCTTCTATAGCAGATCAACCCTCATTACTTCATATCATGAGCCACAAGTTGAGGATAGTGATCTCCCAAATCTTCGAGCAAAGAGCTTTGTAGGAAGTAAATAGTTTTTCTTTGGATTTTATTTAGAATTGGGCTTACCACTGATGAGTTAATACTAATCCGAATTAGAAAAACAACCATCACGTTCCAGCTGAACTGGTGTGGTCTCTATATGTTTCAGAATAAAACAATGGTTGCAATTCCTTCTCTGCCACTGCAGGTTTTGATAGAAATTATTTCGATCTTTGATAACCACTTTATACAACTCCAAGGATGGCGGGTCATATTTTTAACCTCTGTGCTTGTTGTGTCTCCTTCCAAAGCAAAGTGGAGTTCTGTGGTTTTGATGCAGTACTTCAGTCTGAGGTTCTCGTTTTTTAGTAATACTGTAATAGGGAGTAATGCATTTTGTTCGTGGACCAATAAATTTCTCGGGTCTGTGTAATATACTCTTCATACTGCAGTTAACTTTGTACTGGGCAACTTTAATTTGGATTCATGTACCCTTGGTAGGCGATTGGTTAGAGCAATTTGTCATGGACCATATGTTCAAACAGAAAGCTAAAGCTGTGGCTTTGCGGTCTTTATGCTACAAAGCTTTTCCTTGGAGCTCGGGCCATAAATGTGTTTGTAATTATTATCCATTTTTTATTAGCTAATAGGAGAACTTATTGGCAATCCCTTGGCTTTAGGTTCTTGACTTACTGCTTTAGGTTCTTGACTTACTCTTCTTCTTCCAAGAAACAAAAGGTTTATGTTTCTCGTAAAGAATTAAATGAATTGTGGATCCTAAAAAATTACTTCGGATTTTGACTAATTTCAATTTGACTACAGTGAATCTCTGTTCTTCTAAAGAGAGCGTATCATTATCATTCTGCTGAGCAGGATACTGGACCCGTAAATTTTAATTCCTAATAAATTTTTTGAACTAGGGCTCAAAATATTCCCTTGTGGTAGAAAAAAAGAAACTCAACTGGTTATTTTCTTGCTGCAGTGCACTCTCTTATCTCTTGGGGGAAAGATTAAAGATGAAGATATCTCCCTCCTGATCAACACTGGACTCTTGGTAAGTAATTTTGAGATTCTCATTAAAACTTTCTTTATCGTAGAAAAGAGCAAGTATACGGTTAGAGTTGAAATAACAAGGATTTAGTTCTTCTATCTCGATGAAGGGTGTATTAGAGACGACCATTAGAGATGACCGGAAATAGAGAGAGCTTGTGTTGCATCATGTAGGGTCCCCTGCCCCATAAATTTTGTTTTTGATATGCTGCTGAGTAGCTCTTGTTCACTTGCATTTGCGTAGGCCCCTGCACCAAATTCTCATTTCTTATTCTATCAATCTCAGCTGATCAGTGCACTAAATATTTTGGTTTGCATGTATAATATAATTATAAAATCTTCAAAAGTTCACAGGGTCACACTTGAGATGGTCTGCCTTGGAGTCCATAGTTCTCCAATCAGGAACCGCACATTTCTTTGTTTTTTCATTTTTTAGGTTACCTTTAAGAACAAGACTTCCTTTCCACATATGGTCTTTTATGGCTGTTTGAACATAGATCGCTGGCCTTATTTATATGGTTAAATAGAACATTTAATGAGAACTCAAAATTTGCTTGTTTCTAAGTATTTTCAATTATGTTGTGCCATTTTGACTTCTACTTTTGTTTCCAGAATTGCCAACTTATTGATCCAAACGTGTATTGGTTTGCAATTCCAAGTATCGGTTCTGTACTGAAAGGCATTTCTCAGGTATCTGAAATAATTTTCTATTGAACTTCCTTCATAATTTGTTTGTATTTCAGCAATATGTTATGTAGGGTGGCGCCCAATCCAAAATTGGAGACATTTATATATTTATTAATATTGACAATTTATTGGGCAGTTTTTGATTCACACCGATAAAAACTTGAGTGTAAGGTATCATGGAAATTGGTGAAGGAAAGATCTGTTAATTGGAAAAGGATTGAAACTTATTTAACAAGTTCTTTCAATCATAGGGAAAAAAATGTCTCTTAATTGCTCAGTAGTATGATACTACTCTGTACTCGTATTAAAGGGCTGATGAAGCTTTAGACTCTTCCGGTTCAAATTTAGAATGGGCTTGTCAAGCTACCCTTTGTATCCCAGAAATTTTTTCAAGAAATCCTTTTACATCTTCTTCATTGATGCTTCAAAAAGAAAACCAGATTCAGACCTCACCGGAACCTAAAAACAGAGACTCCCCAACAGCTTTCTTCCCGCCGATGATGGAAGATTCAAGAGGAAACGATCAAGCTCATGTCTGTCGGAAAAGAGAGGTTACGACAGCATGTGAAGCTCCTGAAAGTAGTCCAAGGGTCGCACATCCTCTTGCTGCAAAAAGCATTATTCAAACTTCGCCAGCTGGAAGCCCTCAGAAGGAAGCCCAAAAGACATGGGTTAGTGAAGAGTCACTTTCAAAGAGGACAAAAGGTAACTTCGGGAATCCATCTCGGCGAAGACGCCTGCGAGGAAGCGAGAACTTTCAGATAAAGGCTAGGTTTGATCGAGAGATAAAGAAAAAGAGCTTCAAAAGTGAAAGGAAAATTGTAGAGGAAGTTAAAAAGAAGCTTTTAAAGAGGAAAGAGAATATTTTGGCTGAGAATTCTTTATTGCCAATTGGAATTCCAAGTTTTAGTACAGATGGGAAGGGGAAGGTAGGTAAGACGAAGCGTGACCACACTTCTGCCGTTCTTTCTTCCTCCATTGGCAAGTCACTTCCCTCTGCTTCGTCAAAGTCTTTTCCCTTCATTCCCATTGCCGGTTTTGTGCCCACAAAAATCCCTTCCGGAAAAGCTCCTACATCCAACTCTTCCTCTTTGGTCTTTCTTCGTCTTCCCTCTCATCCTCGGCCAAATCTGGGTCAAAGGCTAAGTCTAAAAAACATCCAAAATCAAGGGTTCTCTCACATCCCTTCAAGATTTTCCCAAAGCATTTTGTTAGAAGGAAAAGGGTATAGGAGACCTCAAAAAAAAGTTTGCGAAGGAAAATTTGATTCTAGATCAGAACCCTGATTTTTTGGAGGCAAATTGTGCCCTTGTTCAAGCCCCTTCCCAATCAAACAAGTCAGATCCTCAGAGTTCTGTTCATCCTCAATTTAAATACTCCCTTTTCTCTATGCCTAATTCTAAGGTAAATTTTTGAGAGGTTCTCCTACCCAAACCCAAACTCCATTCTCCTCATCGAAAAAGAGGAGTGTATCAGATTTCGACTTTCGTTTTAGTGTGAGCAGCGAGGAAGTCGAACATATGCCATAGTTAGCGTTGAAGGATCACTAGTTGATTTAGGATCCTTTAGAATCTGATCTCAATACCCTGTTTCAAACAGAGGAGGATTTAATTACTGAGAAACAGGCCTCTTTATTTCCCTCACAAGCTCAACACTTTGAAGTTCCTGATAACTTGAAGTCAATGTTGAGAAATGTGGAATTATTTTGGTTTGAGTACAGAATTTAGACTGGATCTTTTTTCAACAAATTATATTTTTAAGTCTTTTTAGTGGATCACGAGAGATTCGTCGGATGCTTCTATTATTTTGGCCCTCTAATGTTCTTCTGAAATTTTCTGGTTCTAGTCACTCATTCAAGATTTAAGGACTACTTAGAAGGCATATTTTTCAACAATCCTCAACTTGAAGCTGCATGGATGTTTACTCTCCCTTGGTGTTTCCCTCCCATCCATTTTGAAGTTTTTAGTCTGCAATCTTCAGCTGTTTTTGGGCTTCTTGTTGAAAGATTTTAATTTTGCTTTGTTCTTATTTTTCTACTGTTTTGCTTAGGGTTTCCTTTGTGTTGTTTGTATTGTTCAATTCGTTTGTACTTTTGTTTGCAATTGCTCTTTTCGCTCTTAGTATCATTCTCTTGTACTTTGAGCATTAGTCTCTTTTATTTATAAACTAATAAAGAGACTCGTATCCGTTTAAAAAGAGCCTATTAAAGGGCATACAAATCTAGTTTATACACTCTAATGGTAAAAATAATACAAATCACTTATTGCACGTAGTACACTATATAAAATTAATACACATCATTTAGTATCTTTAGGAAAAAGTTTACCAGTGGATGAAGAATTTGTGAATATGGTTTCATTCAACTAGGAGTAGAGACTTTACATGGGTTTACGGTCGCATGACTATATAGGAGGCATTATCTTGAAGATTCTTTAATGCTCTTGAATATAAATTGCGGTATGGATGGATGCATGTCTAGAGACTAGAGGGAATAAACAGAGAACTTTCTTGTGAAATTACGTCCTTCATTTAACTTATGGTTTGGATGTATGAATAAGTTTTAAAATTTAATGAAAATTGTGACTTATACGACCTTACTTGAATAGAATTAGATTATGTGCAACTTTATCCTTGAATTTTGTTGAGAATTCTGACTTGACTCTCACTAAATGTGATGTACTGATGTATGTGTGCTCTTTTCTTCTTTTTCTTAATTCAGGGTAGAAAGGAACTCATTTCTTTGCTAAAACGCACCAAATACAAAGAAATGATGCTGACATCTTTGCAGAAAAAGCGTCTTCGCTTTTCTTCACTCGACATGAGATTTCATATACGAGATTTAATTGGTTCTGGTTACCTCCGAACTGTGCAATCACCAACAGGCTTACTTGTTCAGTTATGGAAAGATTAAAATCAGGGAGGACTGAATCATATGCTTCTGTTTGCTTTCCTCCCCACTTGTTTATTAACTAAGGTAATTTGCTATTACTTGAAATTTTCTTGTATTTGGAGCACTACTTTCCTTTCATTAAATCAATGAAAATTTGTCATTTCAAAGAGAAAAAAAATCTATCACTTGAATAGTCTTTAATAATATACTAGAATTCAGGGAAAAGTTCAATTTTTACCCCTGGTGTATAAGTGAGCCCATTATAAATGGTGCAATTTATAAAAAAAATTTGTCTCTTTGGTTGGATGAGACTAGTTTTGGCCAATATTCATTATTCCAATTGTGTTGGATGATCCTAAGCAGTAGTTTTTTGTTGGATTGTTTCGAAATATAGCAAAATAAACTAAAATATTTACAAAATATAGCAGTTTTTTCATTTACAATAATTTATCTTATCTTTTCTTTTGTTCCGATGTTTTTATTTATTTATTTATTATTACTACTGCTATTTGTTTATTATTACTACTACTTCTTTGTTACTAGGATTAATTTTTTTTTTGTTTTGTTTCATTTTGTGGTTAGTTTCAAGTAATTTCATGTTAGAGGTTGGACATTTTTGTGACATGTTTTAGTGTGTTAGTTGAATTTCATATGATTTATTGGTTGATCCATCGACAATTTTCTAAAACAGTTATGAGTTTTGACTTTCAAGAGGTACTAATTTCAACATTTAAATTCATAATTTTGTTTGATGAAATTAAAAGTTTAAGATTAAAATATTGATACACGATAAGATGATTTTTTTCATGGAATTTAAAGGTTCACTTTCTATTGGATGTTTCAAGTATTTGGATAACTTCGCAGGCTGAAATAGAAGTTTAAGCATCAGCAACATGACTGAGAAAAAATGTTCATAATTCATAAGCCATTATCACAAAGGGTGGGTAAGACTTAAGAGGATGTGTGTTCTTAAACTTGTTATTTTTATCATTATTGATTTCTTAGGGGAAATGAGAACTATTGAATTTGTGAATGTTTTAGTTTATGTGGGTCTACCTGAGTTCAATTGTATGTGAACATTCAAATGACCCACTTTGTAATATTTATATAACATTTGGGGTATTTTTTTTTTTAGGATTTCAGAA GTTAGAGTCGGGAGGGAATTCGACAAGAGGATATATGACCAACAGGTTTCCGTCTCAACAAAACTCGAGAGAAACTGAGAAAGATCCTCAATTCTCTCTCATTGTTGCCGTCGAGGAAGAAAAAGCTACTGCATGTTCCAATTCCGCCGAGATGAGTAGTCCTTCAGAATCATCTAGAGCGAAGAAACGCCGACGAGAGGCCGAAATTGAAGACGATGGCGGGAACAATACTGAAAATTTATCGTTGGAGGACTGTCTTACATTTAACGATACTTTGGCGGCGCTTCATATGATGCGAGCTCAGTTTCCCACCATTGACAAGGTGTCAATTCAGCCATTCATTTTGCAATCACAGTTGTATAGTAGTTTGAAAGACCGAACAGAAGTAGACAGGGAACTAGAGTGTCTAAAACGAGAAAAAGTAGTGCGAGTATTCAAACTGAATACTGGACAAGATGATCATGCAATAATGTTTTTGGATGACTATCTGAAGCAGATTGACCGTGTGATATCAAGGTTTGAAGAAAGGATGAAACTTGGCAAGGAGATTTTTCAGTGGTTTAAGATTCATGTTATTGATTGCAAGTTGGAACCTAGTATTGGACATCAGGAGCTTTGCACTCTCTTATCTCTTGGGGGAAAGATTAAAGATGAAGATATCTCCCTCCTGATCAACACTGGACTCTTGAATTGCCAACTTATTGATCCAAACGTGTATTGGTTTGCAATTCCAAGTATCGGTTCTGTACTGAAAGGCATTTCTCAGGGTAGAAAGGAACTCATTTCTTTGCTAAAACGCACCAAATACAAAGAAATGATGCTGACATCTTTGCAGAAAAAGCGTCTTCGCTTTTCTTCACTCGACATGAGATTTCATATACGAGATTTAATTGGTTCTGGTTACCTCCGAACTGTGCAATCACCAACAGGCTTACTTGTTCAGTTATGGAAAGATTAAAATCAGGGAGGACTGAATCATATGCTTCTGTTTGCTTTCCTCCCCACTTGTTTATTAACTAAGGCTGAAATAGAAGTTTAAGCATCAGCAACATGACTGAGAAAAAATGTTCATAATTCATAAGCCATTATCACAAAGGGTGGGTAAGACTTAAGAGGATGTGTGTTCTTAAACTTGTTATTTTTATCATTATTGATTTCTTAGGGGAAATGAGAACTATTGAATTTGTGAATGTTTTAGTTTATGTGGGTCTACCTGAGTTCAATTGTATGTGAACATTCAAATGACCCACTTTGTAATATTTATATAACATTTGGGGTATTTTTTTTTTTAGGATTTCAGAA ATGACCAACAGGTTTCCGTCTCAACAAAACTCGAGAGAAACTGAGAAAGATCCTCAATTCTCTCTCATTGTTGCCGTCGAGGAAGAAAAAGCTACTGCATGTTCCAATTCCGCCGAGATGAGTAGTCCTTCAGAATCATCTAGAGCGAAGAAACGCCGACGAGAGGCCGAAATTGAAGACGATGGCGGGAACAATACTGAAAATTTATCGTTGGAGGACTGTCTTACATTTAACGATACTTTGGCGGCGCTTCATATGATGCGAGCTCAGTTTCCCACCATTGACAAGGTGTCAATTCAGCCATTCATTTTGCAATCACAGTTGTATAGTAGTTTGAAAGACCGAACAGAAGTAGACAGGGAACTAGAGTGTCTAAAACGAGAAAAAGTAGTGCGAGTATTCAAACTGAATACTGGACAAGATGATCATGCAATAATGTTTTTGGATGACTATCTGAAGCAGATTGACCGTGTGATATCAAGGTTTGAAGAAAGGATGAAACTTGGCAAGGAGATTTTTCAGTGGTTTAAGATTCATGTTATTGATTGCAAGTTGGAACCTAGTATTGGACATCAGGAGCTTTGCACTCTCTTATCTCTTGGGGGAAAGATTAAAGATGAAGATATCTCCCTCCTGATCAACACTGGACTCTTGAATTGCCAACTTATTGATCCAAACGTGTATTGGTTTGCAATTCCAAGTATCGGTTCTGTACTGAAAGGCATTTCTCAGGGTAGAAAGGAACTCATTTCTTTGCTAAAACGCACCAAATACAAAGAAATGATGCTGACATCTTTGCAGAAAAAGCGTCTTCGCTTTTCTTCACTCGACATGAGATTTCATATACGAGATTTAATTGGTTCTGGTTACCTCCGAACTGTGCAATCACCAACAGGCTTACTTGTTCAGTTATGGAAAGATTAA MTNRFPSQQNSRETEKDPQFSLIVAVEEEKATACSNSAEMSSPSESSRAKKRRREAEIEDDGGNNTENLSLEDCLTFNDTLAALHMMRAQFPTIDKVSIQPFILQSQLYSSLKDRTEVDRELECLKREKVVRVFKLNTGQDDHAIMFLDDYLKQIDRVISRFEERMKLGKEIFQWFKIHVIDCKLEPSIGHQELCTLLSLGGKIKDEDISLLINTGLLNCQLIDPNVYWFAIPSIGSVLKGISQGRKELISLLKRTKYKEMMLTSLQKKRLRFSSLDMRFHIRDLIGSGYLRTVQSPTGLLVQLWKD Homology
BLAST of PI0016603 vs. ExPASy Swiss-Prot
Match: P49842 (Serine/threonine-protein kinase 19 OS=Homo sapiens OX=9606 GN=STK19 PE=1 SV=2) HSP 1 Score: 95.5 bits (236), Expect = 1.1e-18 Identity = 69/263 (26.24%), Postives = 132/263 (50.19%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy Swiss-Prot
Match: Q54WC0 (Serine/threonine-protein kinase 19 homolog OS=Dictyostelium discoideum OX=44689 GN=STK19 PE=3 SV=1) HSP 1 Score: 91.7 bits (226), Expect = 1.6e-17 Identity = 72/281 (25.62%), Postives = 135/281 (48.04%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy Swiss-Prot
Match: Q9JHN8 (Serine/threonine-protein kinase 19 OS=Mus musculus OX=10090 GN=Stk19 PE=2 SV=2) HSP 1 Score: 90.9 bits (224), Expect = 2.7e-17 Identity = 59/208 (28.37%), Postives = 109/208 (52.40%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy TrEMBL
Match: A0A1S3BHM8 (serine/threonine-protein kinase 19 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489740 PE=4 SV=1) HSP 1 Score: 523.5 bits (1347), Expect = 6.1e-145 Identity = 273/301 (90.70%), Postives = 281/301 (93.36%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy TrEMBL
Match: A0A0A0K8K8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G373500 PE=4 SV=1) HSP 1 Score: 493.8 bits (1270), Expect = 5.1e-136 Identity = 253/268 (94.40%), Postives = 258/268 (96.27%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy TrEMBL
Match: A0A6J1GRQ3 (serine/threonine-protein kinase 19 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111456517 PE=4 SV=1) HSP 1 Score: 466.5 bits (1199), Expect = 8.8e-128 Identity = 242/272 (88.97%), Postives = 254/272 (93.38%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy TrEMBL
Match: A0A6J1JWE0 (serine/threonine-protein kinase 19 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111488094 PE=4 SV=1) HSP 1 Score: 466.1 bits (1198), Expect = 1.1e-127 Identity = 242/272 (88.97%), Postives = 252/272 (92.65%), Query Frame = 0
BLAST of PI0016603 vs. ExPASy TrEMBL
Match: A0A1S3BHW5 (serine/threonine-protein kinase 19 homolog isoform X2 OS=Cucumis melo OX=3656 GN=LOC103489740 PE=4 SV=1) HSP 1 Score: 465.7 bits (1197), Expect = 1.5e-127 Identity = 250/301 (83.06%), Postives = 257/301 (85.38%), Query Frame = 0
BLAST of PI0016603 vs. NCBI nr
Match: XP_008447256.1 (PREDICTED: serine/threonine-protein kinase 19 isoform X1 [Cucumis melo]) HSP 1 Score: 523.5 bits (1347), Expect = 1.3e-144 Identity = 273/301 (90.70%), Postives = 281/301 (93.36%), Query Frame = 0
BLAST of PI0016603 vs. NCBI nr
Match: XP_004148939.1 (serine/threonine-protein kinase 19 isoform X1 [Cucumis sativus] >XP_031744616.1 serine/threonine-protein kinase 19 isoform X1 [Cucumis sativus]) HSP 1 Score: 493.8 bits (1270), Expect = 1.1e-135 Identity = 253/268 (94.40%), Postives = 258/268 (96.27%), Query Frame = 0
BLAST of PI0016603 vs. NCBI nr
Match: KAE8646279.1 (hypothetical protein Csa_016685 [Cucumis sativus]) HSP 1 Score: 486.5 bits (1251), Expect = 1.7e-133 Identity = 253/276 (91.67%), Postives = 258/276 (93.48%), Query Frame = 0
BLAST of PI0016603 vs. NCBI nr
Match: XP_038898141.1 (serine/threonine-protein kinase 19 [Benincasa hispida]) HSP 1 Score: 473.8 bits (1218), Expect = 1.1e-129 Identity = 242/268 (90.30%), Postives = 252/268 (94.03%), Query Frame = 0
BLAST of PI0016603 vs. NCBI nr
Match: XP_022954175.1 (serine/threonine-protein kinase 19 isoform X1 [Cucurbita moschata]) HSP 1 Score: 466.5 bits (1199), Expect = 1.8e-127 Identity = 242/272 (88.97%), Postives = 254/272 (93.38%), Query Frame = 0
BLAST of PI0016603 vs. TAIR 10
Match: AT2G20495.1 (CONTAINS InterPro DOMAIN/s: Serine-threonine protein kinase 19 (InterPro:IPR018865); Has 155 Blast hits to 154 proteins in 53 species: Archae - 0; Bacteria - 0; Metazoa - 95; Fungi - 5; Plants - 34; Viruses - 0; Other Eukaryotes - 21 (source: NCBI BLink). ) HSP 1 Score: 353.2 bits (905), Expect = 2.1e-97 Identity = 180/274 (65.69%), Postives = 219/274 (79.93%), Query Frame = 0
BLAST of PI0016603 vs. TAIR 10
Match: AT2G20495.2 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: cellular_component unknown; CONTAINS InterPro DOMAIN/s: Serine-threonine protein kinase 19 (InterPro:IPR018865); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). ) HSP 1 Score: 297.7 bits (761), Expect = 1.0e-80 Identity = 158/274 (57.66%), Postives = 195/274 (71.17%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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